Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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HORIZONTAL AXIS WIND TURBINE
Background of the Invention
Wind powered implements have been in use for hundreds of
years and in the past a windmill was a common site on many
farms for the pumping of water. There has been a growing
interest in the use of wind power for the production of
electricity. For instance, huge rotors on high towers are
being developed which are very sophicated and expensive.
These typically operate as a propeller on the horizontal axis.
There remains a need for a wind turbine for generating
electricity which can be simple and inexpensive and, for
instance, adapted for supplying the electrical needs of a
single farm or rural home. Huther U.S. Patent 4,037,989
describes a vertical axis wind turbine which includes a rotor
with concave surfaced wind catching members. However, this
design is poorly adapted to catch the maximum benefits of a
particular wind direction.
Another relatively simple wind turbine, again with
concave surfaced wind catching members, is shown in Forrest
U.S. Patent 4,357,130. This design is not effective at low
wind speeds and is also not adapted for maximizing the effects
of wind direction.
An attempt at a design at maximizing the effect of the
wind using a horizontal axis rotor is shown in Hings U.S.
Patent 2,542,522. This rotor is designed to turn
perpendicular to the wind and has a very complex mechanism for
orienting a rotor blade where it is moving into the wind.
It is an object of the present invention to provide a
horizontal axis wind turbine which is both efficient at low
wind speeds and safe to operate at high wind speeds.
It is a further object of the invention to provide a wind
turbine which can be effectively operated at close to ground
level, thus avoiding the need for a high support tower.
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Summary of the Invention
The present invention in its broadest aspect relates to a
horizontal axis wind turbine which includes a substantially
horizontal turntable frame mounted for rotation on a vertical
pivot. A pair of laterally spaced vertical support legs are
fixed to and extend upwardly from the turntable. A horizontal
rotatable shaft extends across between and is horizontally
journaled in the upper ends of these vertical support legs. A
wind rotor is fixed to the rotatable shaft and comprises at
least four, and preferably six, pairs of oppositely disposed
arms radiating outwardly from the rotatable shaft with concave
surfaced wind catching buckets mounted across between each
pair of arms. Each bucket is spaced radially outwardly along
the arms at a distance at least twice the width of the bucket.
It has been found advantageous to mount two buckets between
each pair of arms with a space between the buckets. A wind
direction vane is also connected to the turntable frame for
directing the wind rotor in a direction perpendicular to the
oncoming wind.
According to a preferred feature of the invention, an
upwardly inclined wind deflecting panel is mounted on the
turntable frame and is designed to deflect the oncoming wind
in an upwardly inclined direction into the wind catching
buckets. This wind deflecting panel also serves to shield the
lower buckets that are moving upwardly from being affected by
the wind until each bucket rises above the upper end of the
panel.
A typical rotor has a diameter of about 10-30 feet and
the pairs of rotor arms are typically spaced from each other
by a distance of about 3-6 feet. Each bucket fits between the
pairs of arms and has a width of about 2-3 feet when a single
bucket is used. These concave buckets typically have a depth
of about 1-2 feet. When a pair of spaced buckets are used,
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each has a width of about 1-2 feet and are spaced by a
distance of about 1.5-2.5 feet.
This design of rotor is rather slow turning, but is very
effective in collecting the existing winds. For instance, it
can be operated successfully at wind speeds as low as 7 mph
and can also operate safely with winds of 40 mph. with a
7 mph wind, rotor turns at less than one revolution per
second, while with a 40 mph wind the rotor turns at a speed of
about 1-2 revolutions per second. To utilize this for
generating electricity, it is evident that the speed must be
greatly amplified. For that reason, the electrical generator
is driven through a gear box which steps up the rpm created by
the rotor by at least 50-75 times.
According to a further feature of the invention, a second
rotor is used mounted on a vertical axis. This is mounted
beside the rotor on the horizontal axis and the two rotors are
gear-connected in such a manner that the arms of the two
rotors inter-mesh without actually touching. This arrangement
of two inter-meshing rotors serves to reduce air drag and make
the system more efficient. The two rotors are mounted on the
same base and thus move into the wind together.
Brief Description of the Drawings
Certain preferred features of the present invention are
illustrated by the attached drawings in which:
Fig. 1 is a perspective view of the full assembly,
Fig. 2 is a side elevation of the assembly shown in
Fig. 1,
Fig. 3 is an end elevation of the assembly shown in
Fig. 2,
Fig. 4 is an elevation view of a preferred arrangement of
buckets,
Fig. 5 is a perspective view of a double rotor system of
the invention, and
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Fig. 6 is an elevation view of the double rotor system of
Fig. 5.
Description of the Preferred Embodiments
As shown in the above drawings, the wind turbine of this
invention includes a substantially horizontal turntable frame
mounted for rotation on a mast 25. The lower end of this
pivot is anchored to a solid ground support member 26. The
pivot comprises an inner post fixed to support member 26 and
an outer sleeve fixed to the turntable frame 10. The turning
10 surfaces include ball bearings for ease of rotation.
Extending upwardly from each side of the turntable 10 are
a pair of vertical support legs 11 which are fixed by means of
angle braces 12. Fixed to the upper ends of these arms 11 are
bearing journals 13 for receiving a horizontal rotatable shaft
14. The wind rotor is fixed to this rotatable shaft 14 and
comprises six pairs of radially extending arms 16. Mounted
across between each pair of arms 16 is a concave surfaced wind
catching bucket 17. It is important that the bucket 17 be
mounted distally from the shaft 14 and in a particularly
preferred embodiment the arms 16 have a length of 8 feet and a
lateral spacing of 4.5 feet. Each bucket has a width of
2.5 feet and a depth of 1.5 feet. This means that there is
5.5 feet of free space between the rotatable shaft 14 and the
inner edge of each bucket 17. In order to stabilize this
assembly, cross braces 18 are provided between the arms 16 in
the free space region between the rotatable shaft 14 and the
buckets 17.
With the particular dimensions given above, each bucket
has an area of about 11 square feet. At any one time during a
rotation, two of the buckets are fully exposed to the force of
the wind for a total exposure to the wind of about 22 square
feet.
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A gear box and electrical generator assembly 15 is
attached to the upper end of leg 11. As mentioned above, the
gear box is designed to step up the rpm of the rotatable shaft
14 by at least 50-75 times.
5 A wind direction vane is used for directing the rotor
normal to the oncoming wind. This wind vane 21 is mounted on
one end of the turntable frame 10 by means of support legs 20.
On the upwind end of the turntable frame 10 is mounted a
wind deflecting panel 22. This panel is supported at the
upper end by means of support legs 23 and is mounted on the
turntable 10 at an angle of about 35° to the horizontal. The
upper end of the deflector panel 22 is preferably located at
an elevation approximately equal to the elevation of the
rotatable shaft 14 and directs the wind in an upward direction
into the rising buckets as they pass the top end of the
deflector. The deflector panel can increase the rotor speed
by 15-20% for a given wind speed.
A preferred arrangement of wind catching buckets is shown
in Figure 4. In this arrangement, a pair of spaced wind
catching buckets 17a and 17b are used between the arms 16 with
an air gap 32 between them. In a preferred arrangement each
bucket has a width of about 1.5 feet and a length of about 4.5
feet with a gap 32 width of about 2 feet. This has been found
to be more efficient than the single bucket as shown in
Figures 1-3. The pair of spaced buckets provides less air
drag and produces greater energy for a given wind velocity.
Another preferred embodiment of the invention is shown in
Figure 5. This includes a rotor 30 mounted on horizontal
rotatable shaft 14 as shown in Figure 5 in combination with a
second rotor 33 mounted on a vertical rotatable shaft 37. A
vertical support 35 and a horizontal support 36 carry one end
of horizontal rotatable shaft 14 of rotor 30 and the upper end
of the vertical rotatable shaft 37 of the second rotor 33.
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The rotor 33 includes radial arm 38 supporting pairs of wind
catching buckets 17a and 17b in a manner similar to rotor 30.
The two rotors 30 and 33 are arranged to inter-mesh in a
coordinated fashion such that a pair of radial arms 38 of
rotor 33 pass between two adjacent pairs of radial arms of
rotor 30 at the bottom of the rotation of rotor 30 as shown in
Figure 5. This is accomplished by means of the bevel pinion
gears 40 and 41 connected to shafts 14 and 37 respectively as
shown in Figure 6. The electrical generator may still be
connected to rotor 30 with power to drive the generator being
provided by the joint action of the two rotors 30 and 33.
A particular advantage of the wind turbine of this
invention is that it can efficiently utilize even quite low
wind speeds in the order of 7 mph without the need for being
mounted on a high tower or mast. Accordingly, the turntable
frame 10 need only clear the ground sufficient to avoid
interference from anything that collects on the ground, e.g.
snow. While the drawings show the turntable quite close to
the ground, it is generally preferred to use a mast 25 having
a height of about 10-15 feet.
It will therefore be seen that the wind turbine assembly
of this invention represents a simple and easy design which,
at the same time, is capable of efficiently utilizing even low
wind speeds for the generation of electricity. It is also to
be understood that the described exemplary embodiments of the
apparatus of this invention are intended for the purpose of
illustration only, and that the principles of the invention
are not to be limited thereto, except as defined in the
appended claims.